This repo contains several algorithms for multi-hop reasoning on knowledge graphs, including the official PyTorch implementation of Beta Embeddings for Multi-Hop Logical Reasoning in Knowledge Graphs and a PyTorch implementation of Complex Query Answering with Neural Link Predictors.
Models
KG Data
The KG data (FB15k, FB15k-237, NELL995) mentioned in the BetaE paper and the Query2box paper can be downloaded here. Note the two use the same training queries, but the difference is that the valid/test queries in BetaE paper have a maximum number of answers, making it more realistic.
Each folder in the data represents a KG, including the following files.
train.txt/valid.txt/test.txt
: KG edgesid2rel/rel2id/ent2id/id2ent.pkl
: KG entity relation dictstrain-queries/valid-queries/test-queries.pkl
:defaultdict(set)
, each key represents a query structure, and the value represents the instantiated queriestrain-answers.pkl
:defaultdict(set)
, each key represents a query, and the value represents the answers obtained in the training graph (edges intrain.txt
)valid-easy-answers/test-easy-answers.pkl
:defaultdict(set)
, each key represents a query, and the value represents the answers obtained in the training graph (edges intrain.txt
) / valid graph (edges intrain.txt
+valid.txt
)valid-hard-answers/test-hard-answers.pkl
:defaultdict(set)
, each key represents a query, and the value represents the additional answers obtained in the validation graph (edges intrain.txt
+valid.txt
) / test graph (edges intrain.txt
+valid.txt
+test.txt
)
We represent the query structures using a tuple in case we run out of names :), (credits to @michiyasunaga). For example, 1p queries: (e, (r,)) and 2i queries: ((e, (r,)),(e, (r,))). Check the code for more details.
Examples
Please refer to the examples.sh
for the scripts of all 3 models on all 3 datasets.
Citations
If you use this repo, please cite the following paper.
@inproceedings{
ren2020beta,
title={Beta Embeddings for Multi-Hop Logical Reasoning in Knowledge Graphs},
author={Hongyu Ren and Jure Leskovec},
booktitle={Neural Information Processing Systems},
year={2020}
}